US11471952B2 - Cutting tool having replaceable cutting head and method of securing a replaceable cutting head - Google Patents
Cutting tool having replaceable cutting head and method of securing a replaceable cutting head Download PDFInfo
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- US11471952B2 US11471952B2 US16/824,537 US202016824537A US11471952B2 US 11471952 B2 US11471952 B2 US 11471952B2 US 202016824537 A US202016824537 A US 202016824537A US 11471952 B2 US11471952 B2 US 11471952B2
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- Prior art keywords
- cutting head
- angle
- tool shank
- pair
- contact surfaces
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B51/00—Tools for drilling machines
- B23B51/02—Twist drills
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B27/00—Tools for turning or boring machines; Tools of a similar kind in general; Accessories therefor
- B23B27/14—Cutting tools of which the bits or tips or cutting inserts are of special material
- B23B27/16—Cutting tools of which the bits or tips or cutting inserts are of special material with exchangeable cutting bits or cutting inserts, e.g. able to be clamped
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B51/00—Tools for drilling machines
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B51/00—Tools for drilling machines
- B23B51/12—Adapters for drills or chucks; Tapered sleeves
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B2251/00—Details of tools for drilling machines
- B23B2251/02—Connections between shanks and removable cutting heads
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23B—TURNING; BORING
- B23B2260/00—Details of constructional elements
- B23B2260/124—Screws
Definitions
- the disclosure relates to cutting tools for performing machining operations on a workpiece, and more particularly, to a modular rotary cutting tool having replaceable cutting heads and methods for securing the replaceable cutting head to a tool shank.
- Cutting tools can be of both one-part and multi-part design.
- Cutting tools of the type that make use of a holder part or tool body, as well as a separate, replaceable cutting part or insert, are especially common and are known as a modular cutting tool.
- Such modular cutting tools may be of widely varying shapes and include, for example, drilling tools, milling tools, thread cutters, and the like.
- the basic problem of a modular rotary cutting tool is to provide support against the cutting forces that try to rotate the cutting head and pull the cutting head out of the tool shank.
- a lot of solutions are already proposed in the field of modular drills in order to solve this basic problem. Some of them use the principle of rotation to lock the cutting head (i.e., replaceable cutting tip) in the tool shank.
- a main problem with these solutions is the fact that the cutting head is held in the tool shank only by forces created by deformation of the walls of the tool shank. Therefore, the high cutting forces of the machining operation, such as drilling and the like, or some vibration, can cause the cutting head to unexpectedly loosen from the tool shank. In addition, the life of the cutting head can be reduced due to less clamping force.
- a seemingly better solution is to hold the cutting head by a screw.
- the screw mechanism is complex, expensive, and a large amount of space is required to assemble the screw, which reduces the stiffness of the cutting head and limits the application of the cutting tool, particularly in small modular drills.
- the modular cutting tool may need to be removed from the machine in order to change the cutting head, thereby increasing operational costs.
- the disclosure describes a solution that is more effective in supporting the cutting forces generated during cutting operations to more securely hold the cutting head in the tool shank, while simplifying manufacturing and reducing cost. Another advantage is avoiding the removal of the cutting tool from the machine when replacing the cutting head. Yet another advantage is the reduction of stress in the cutting tool during machining operations, which increases the life of the cutting tool.
- a rotary cutting tool comprises a tool shank having a pocket and at least one pair of V-shaped contact surfaces.
- a cutting head is replaceably mounted in the pocket of the tool shank.
- the cutting head comprising at least one pair of V-shaped contact surfaces.
- a coupling pin is at least partially received within a bore of the tool shank.
- An actuation member engages the coupling pin and causes the cutting head to move relative to the tool shank.
- the at least one pair of V-shaped contact surfaces of the tool shank engage the at least one pair of V-shaped contact surfaces of the cutting head to distribute cutting forces in two different directions during machining operations.
- a rotary cutting tool comprises a tool shank having a pocket and at least one pair of V-shaped contact surfaces formed at a third angle, A 3 , with respect to each other.
- a cutting head is replaceably mounted in the pocket of the tool shank, the cutting head further comprising at least one pair of V-shaped contact surfaces formed at a fourth angle, A 4 , with respect to each other.
- a coupling pin is at least partially received within a bore of the tool shank.
- the coupling pin comprises a threaded portion at one end and a cylindrical portion.
- the cylindrical portion includes a reduced-diameter portion, the reduced-diameter portion defined by a first angled side wall, a second angled side wall, and a bottom surface therebetween.
- An actuation member engages the coupling pin and causing the cutting head to move relative to the tool shank, the actuation member having a threaded portion at one end and a non-threaded portion at an opposite end.
- the non-threaded portion of the actuation member engages one of the pair of angled side walls when the actuation member is rotated in a first direction, and the at least one pair of V-shaped contact surfaces of the tool shank engage the at least one pair of V-shaped contact surfaces of the cutting head when the actuation member is rotated in the first direction.
- a rotary cutting tool comprises a tool shank having a pocket and at least one pair of V-shaped contact surfaces formed at a third angle, A 3 , with respect to each other.
- a cutting head is replaceably mounted in the pocket of the tool shank, the cutting head further comprising at least one pair of V-shaped contact surfaces formed at a fourth angle, A 4 , with respect to each other.
- a coupling pin is at least partially received within a bore of the tool shank.
- the coupling pin comprises a threaded portion at one end, a reduced-diameter portion at an opposite end, a cylindrical portion disposed between the threaded portion and the reduced-diameter portion, and a notch formed in the cylindrical portion, the notch defined by a first side wall, a second side wall, and a bottom surface therebetween.
- An actuation member engages the coupling pin and causing the cutting head to move relative to the tool shank, the actuation member having a threaded portion at one end and a frustoconical front portion at an opposite end, the frustoconical front portion having a first angled surface and a second angled surface.
- the first angled surface of the actuation member engages the first side wall of the notch when the actuation member is rotated in a first direction.
- the second angled surface of the actuation member engages the second side wall of the notch when the actuation member is rotated in a second direction, the second direction opposite to the first direction.
- the at least one pair of V-shaped contact surfaces of the tool shank engage the at least one pair of V-shaped contact surfaces of the cutting head when the actuation member is rotated in the first direction.
- the at least one pair of V-shaped contact surfaces of the tool shank do not engage the at least one pair of V-shaped contact surfaces of the cutting head when the actuation member is rotated in the second direction.
- FIG. 1 is a side exploded view of a rotary cutting tool, such as a modular drill, according to an embodiment of the disclosure
- FIG. 2 is an enlarged side view of the tool shank and cutting head of FIG. 1 ;
- FIG. 3 is a side perspective view of the tool shank and the cutting head when the V-shaped contact surfaces are aligned with each other according to an aspect of the disclosure
- FIG. 4 is another side perspective view of the tool shank and the cutting head when the V-shaped contact surfaces are aligned with each other according to an aspect of the disclosure
- FIG. 5 is a rear perspective view of the cutting head according to an embodiment of the disclosure:
- FIG. 6 is a front perspective view of the tool shank according to an embodiment of the disclosure.
- FIG. 7 is a cross-sectional view of the cutting tool of FIG. 1 taken along the central, longitudinal axis, C L , in a non-actuated position showing the actuation member starting to engage the coupling pin to move the cutting head relative to the tool shank according to an embodiment of the disclosure;
- FIG. 8 is a side exploded view of a rotary cutting tool, such as a modular drill, according to another embodiment of the disclosure with a different coupling pin and actuation member as compared to the rotary cutting tool of FIG. 1 ;
- FIG. 9 is a cross-sectional view of the cutting tool of FIG. 8 taken along the central, longitudinal axis, C L , showing the actuation member engaging the coupling pin to move the cutting head relative to the tool shank according to an embodiment of the disclosure.
- FIG. 10 is a cross-sectional view of the cutting tool of FIG. 8 taken along the central, longitudinal axis, C L , showing the actuation member engaging the coupling pin to move the cutting head relative to the tool shank in an opposite direction according to an embodiment of the disclosure.
- the rotary cutting tool 10 comprises a modular drill that includes a tool shank 12 and a replaceable cutting head 14 , which engages the tool shank 12 when the modular drill 10 is assembled.
- the cutting tool 10 comprises a modular drill in the illustrated embodiment, it should be appreciated that the principles of the disclosure can be applied to any rotary cutting tool with a replaceable cutting tip for metal cutting operations, such as a milling tool or another type of rotating tool, for example a reamer, a tap, and the like.
- the description herein of specific applications should not be a limitation on the scope and extent of the use of the rotary cutting tool.
- Approximating language may be applied to modify any quantitative representation that could permissibly vary without resulting in a change in the basic function to which it is related. Accordingly, a value modified by a term or terms, such as “about”, “approximately”, and “substantially”, are not to be limited to the precise value specified. In at least some instances, the approximating language may correspond to the precision of an instrument for measuring the value.
- range limitations may be combined and/or interchanged, such ranges are identified and include all the sub-ranges contained therein unless context or language indicates otherwise.
- any numerical range recited herein is intended to include all sub-ranges subsumed therein.
- a range of “1 to 10” is intended to include all sub-ranges between and including the recited minimum value of 1 and the recited maximum value of 10, i.e., a range having a minimum value equal to or greater than 1 and a maximum value of equal to or less than 10. Because the disclosed numerical ranges are continuous, they include every value between the minimum and maximum values. Unless expressly indicated otherwise, the various numerical ranges specified in this application are approximations.
- the term “elongate” or “elongated” is defined as something that is longer than it is wide. In other words, the width is smaller than its length.
- the term “circular” is defined as an object having a shape of a circle, i.e., an object having a simple closed shape. It is the set of points in a plane that are at a given distance from a given point, the center; equivalently it is the curve traced out by a point that moves in a plane so that its distance from a given point is constant. The distance between any of the points and the center is called the radius.
- a “pair of angled surfaces” is defined as any two surfaces that are not parallel to each other, i.e., form a positive relative angle.
- a “screw” is defined as a threaded fastener having a tapered or non-tapered shank with a helical thread and is driven by rotating the shank with a tool.
- the modular drill 10 has four basic components:
- the coupling pin 16 can be integrally formed with the cutting head 14 , and therefore the modular drill 10 can comprise only three basic components.
- the visible flute has a lateral recess forming part of a flute or cutting head flute portion 20 formed in cutting head 14 .
- a corresponding or complementing lateral recess or shank flute portion 22 is formed in the shank 12 .
- the cutting head flute portion 20 emerges at a leading end 30 of the cutting tool 10 .
- the leading end 30 is defined for semantic purposes and is that end that engages a work piece (not shown) during a cutting operation.
- the cutting tool 10 is mounted in the rotary cutting tool, rotated, and advanced progressively into the work piece (not shown) as cutting progresses. That end of the cutting head 14 opposite the leading end 30 is termed the trailing end 32 .
- the terms “leading end” and “trailing end” are semantic devices that apply equally to the shank 12 and the cutting head 14 as they connote directional orientation with respect to a central, longitudinal axis, C L , rather than specific structure.
- the leading end 30 is that which penetrates a work piece (not shown), and the trailing end 32 is that end opposed to the leading end 30 .
- the portion of the shank 12 that couples to and rotates the cutting head 14 is referred to as a pocket 34 .
- the principal elements of the pocket 34 include two generally symmetrical and similar castellated wall sections 36 , 38 .
- the wall section 36 will be described, it being understood that wall section 38 is a generally symmetrical counterpart thereof.
- Each wall section 36 , 38 is essentially a continuation of the body of shank 12 that projects upwardly from a central floor portion 40 of the shank 12 along the outer periphery of shank 12 .
- Each wall section 36 , 38 has a smooth outer surface 42 that conforms to and is generally coextensive with the generally cylindrical outer surface of the cutting tool 10 .
- a bore 44 extends downward from the central floor portion 40 of the tool shank 12 for accommodating a portion of the coupling pin 16 .
- Each wall section 36 , 38 has a planar, vertically angled retention surface 46 , 48 , and an undercut 50 , 52 , respectively, between the vertically angled retention surfaces 46 , 48 and the central floor portion 40 .
- the term “vertically angled” is defined as being formed at a non-zero angle, A 1 , (i.e. non-parallel) with respect to the central, longitudinal axis, C L , of the cutting tool 10 .
- the angle, A 1 , of the vertically angled retention surfaces 46 , 48 is not equal to 90 degrees (i.e. non-perpendicular) with respect to the central floor portion 40 of the tool shank 12 .
- the angle, A 1 , of the retention surfaces 46 , 48 can be between about 92 degrees and about 95 degrees with respect to the central floor portion 40 of the tool shank 12 , as shown in FIG. 2 .
- the undercuts 50 , 52 located between the central floor portion 40 and the retention surfaces 46 , 48 provide a smooth transition between the central floor portion 40 and the retention surfaces 46 , 48 , thereby reducing stresses caused by the interference fit between the tool shank 12 and the cutting head 12 , and a reduction of forces exerted on the cutting tool 10 during machining operations.
- the undercuts 50 , 52 have an arcuate profile. However, it will be appreciated that the undercuts 50 , 52 can have any desirable profile to reduce stresses and forces to provide a break or relief between the central floor portion 40 and the retention surfaces 46 , 48 .
- each wall section 36 , 38 has a pair of V-shaped contact surfaces 54 , 56 separated by an undercut 58 .
- One pair of V-shaped contact surfaces 54 , 56 is located oppositely (i.e., 180 degrees) of the other pair of V-shaped contact surfaces 54 , 56 .
- the pair of V-shaped contact surfaces 54 , 56 intersect at an axis 84 that lies on a vertical plane, PV, that is parallel to the central, longitudinal axis, C L , in the axial direction.
- the vertical plane, PV is offset from the central, longitudinal axis, C L , by a distance, D, to optimize the axial support and the transmission of torque generated during cutting operations.
- the axis 84 is not perpendicular to the central, longitudinal axis, C L , in the radial direction, which improves the centering of the cutting head 14 with respect to the tool shank 12 when mounting the cutting head 14 on the tool shank 12 .
- the V-shaped contact surfaces 54 , 56 are formed at an angle, A 3 , in a range between about 50 degrees and about 130 degrees, as shown in FIG. 6 .
- the contact surface 54 is positioned at an upward angle, A 6 , with respect to a horizontal plane, PH, in a range between about 45 degrees and about 85 degrees.
- the contact surface 54 is angled upwardly toward the leading conical surface 64 of the cutting head 14 .
- the contact surface 56 is positioned at an upward angle, A 7 , with respect to the horizontal plane, PH, in a range between about 95 degrees to about 135 degrees.
- the horizontal plane, PH is substantially perpendicular to the vertical plane, PV.
- the undercut 58 provides a continuous and smooth transition between the contact surfaces 54 , 56 , which allows for reducing stresses caused during machining operations.
- the undercut 58 provides clearance for the cutting head 14 when mounted on the tool shank 12 .
- the undercut 58 has an arcuate profile.
- the undercut 58 can have any desirable profile to provide a smooth transition between the contact surfaces 54 , 56 .
- the cutting head 14 has at least two main cutting edges 60 (only one main cutting edge is visible in FIG. 1 ), a peripheral generally cylindrical outer surface 62 , and a leading conical surface 64 , which is interrupted or incomplete due to presence of the flutes 20 .
- the cutting head 14 has a shank connection portion opposite the cutting portion, or alternatively stated, facing the trailing end 32 of the cutting head 14 , in the form of an interlocking member arranged to retain the cutting head 14 within the pocket 34 of the shank 12 .
- this interlocking member comprises a generally frustoconical-shaped member 66 , which is located centrally along the central, longitudinal axis, C L .
- the frustoconical-shaped member 66 provides an interlocking member corresponding to and engaging the pocket 34 , which the pocket 34 serves as an interlocking member of the shank 12 .
- the frustoconical-shaped member 66 is so-called due to its characteristic frustoconical-shaped surfaces 68 formed at an angle, A 2 , with respect to a bottom surface 70 of the cutting head 14 .
- the angle, A 2 , of the frustoconical shaped surfaces 68 can be between about 92 degrees and about 95 degrees with respect to the central floor portion 40 of the tool shank 12 , as shown in FIG. 2 .
- the angle, A 2 may be different than the angle, A 1 , between the central floor portion 40 and the retention surfaces 46 , 48 , as shown in FIG. 2 .
- the angle, A 1 can be about 92 degrees and the angle, A 2 , can be about 93 degrees.
- the difference in sizes between the two frustoconical-shaped members 66 , 68 causes an interference fit and accurately centers the cutting head 14 with respect to the central, longitudinal axis, C L , when assembling the cutting head 14 into the shank 12 .
- the V-shaped contact surfaces 54 , 56 and complementary in shape with the V-shaped contact surfaces 76 , 78 of the cutting head 14 are separated by a distance “d” (measured in the axial direction) when the conical surfaces 46 and 48 are making initial contact before final clamping is achieved. Once the distance “d” is closed, the frustoconical-shaped members 66 , 68 will form an interference fit.
- the frustoconical member 66 includes a chamfer 72 extending between the frustoconical surface 68 and the bottom surface 70 of the cylindrical member 66 .
- the chamfer 72 provides clearance for the cutting head 14 when mounted onto the shank 12 .
- the frustoconical member 66 also includes a lateral recess 74 that modifies the frustoconical surface 68 and forms a portion of the cutting head flute portion 20 .
- the cutting head 14 has two pairs of V-shaped contact surfaces 76 , 78 separated by a radiused surface 80 (only one pair is visible in FIG. 4 ).
- One pair of V-shaped contact surfaces 76 , 78 is located oppositely (i.e., 180 degrees) of the other pair of V-shaped contact surfaces 76 , 78 .
- the V-shaped contact surfaces 76 , 78 of the cutting head 14 are complementary in shape and cooperate with the V-shaped contact surfaces 54 , 56 of the tool shank 12 .
- two pairs of V-shaped contact surfaces are shown in the illustrated embodiment, it will be appreciated that the disclosure can be practiced with a single pair of V-shaped contact surfaces 76 , 78 .
- the V-shaped contact surfaces 76 , 78 of the cutting head 14 are formed at an angle, A 4 , in a range between about 50 degrees and about 130 degrees with respect to each other.
- the radius surface 80 provides a continuous and smooth transition between the contact surfaces 76 , 78 , which allows for reducing stresses caused during machining operations.
- the radiused surface 80 cooperates with the undercut 58 of the tool shank 12 .
- V-shaped contact surfaces 54 , 56 of the tool shank 12 contact with the V-shaped contact surfaces 76 , 78 of the cutting head 14 when the cutting head 14 is installed on the tool shank 12 .
- the cutting forces are generated in both the x- and y-directions, as shown in FIG. 3 .
- the contact between the V-shaped contact surfaces 54 , 56 , 76 , 78 provides greater stability against the cutting forces generated during machining operations as compared to conventional cutting tools.
- V-shape of the contact surfaces 54 , 56 , 76 , 78 of the cutting tool 10 support the momentum created by the cutting forces in both x- and y-directions, as compared to only in one direction in conventional cutting tools.
- the contact forces between surface 78 and 54 will cause surface 76 of the cutting head to maintain engagement with surface 56 of the tool shank, preventing relative motion between cutting head and tool shank. This is particularly important when the drill is first engaging with the workpiece and torque is low (only tip of the cutting insert is cutting).
- a threaded bore 82 is formed in the bottom surface 70 of the cutting head 14 , as shown in FIG. 5 .
- the cutting head 14 and the coupling pin 16 are screwed together when assembling the cutting tool 10 .
- Both the cutting head 14 and the coupling pin 16 can be supplied assembled together as the manufacturing cost of the coupling pin 16 is very low when compared to the cutting head 14 .
- a chamfered surface 86 may be formed between the frustoconical-shaped surface 68 and the downwardly facing V-shaped contact surfaces 76 , 78 to provide a smooth transition therebetween and to provide resistance to cracks.
- the actuation member 18 comprises a threaded member, such as a screw, bolt, and the like, and has a threaded portion 88 at one end and a non-threaded portion 90 at an opposite end.
- the coupling pin 16 has a threaded portion 24 at one end, a cylindrical portion 26 having an outer diameter slightly less than the diameter of the bore 44 in the tool shank 12 such that the cylindrical portion 26 can be at least partially disposed therein.
- the cylindrical portion 26 has a notch portion 28 having a pair of angled side walls 28 a , 28 b and a bottom surface or base surface 28 c therebetween.
- the threaded portion 24 is capable of being received in the threaded bore 82 of the cutting head 14 , as shown in FIGS. 1 and 7 .
- the cutting head 14 can be assembled to the tool shank 12 .
- the operator may hold cutting head 14 with one hand and downwardly move the cutting head 14 towards the tool shank 12 in the direction of the arrow in FIG. 3 .
- the V-shaped contact surfaces 76 , 78 of the cutting head 14 align the cutting head 14 with the corresponding V-shaped contact surfaces 54 , 56 of the tool shank 12 , as shown in FIGS. 3 and 4 .
- the operator threads the actuation member 18 into a threaded bore 92 in the tool shank 12 .
- Rotating the actuation member 18 in a first direction causes the actuation member 18 to move in the direction of the arrow 94 , as shown in FIG. 7 .
- rotating the actuation member 18 in a second, opposite direction causes the actuation member 18 to move in an opposite direction as the direction of the arrow 94 .
- the non-threaded portion 90 of the actuation member 18 eventually engages one of the angled side walls 28 a , 28 b of the coupling pin 16 , which causes the cutting head 14 to move downwardly relative to the tool shank 12 in the direction of the arrow 96 , thereby decreasing the distance “d” between the bottom surface 70 of the cutting head 14 and the central floor portion 40 of the tool shank 12 .
- the actuation member 18 is threaded into the tool shank 12 until any or all of the bottom surface 70 and any or all of the central floor portion 40 abut each other.
- any or all of the V-shaped contact surfaces 54 , 56 , 76 , 78 abut each other. At this point, the cutting tool 10 has been placed in an actuated position and thereby is properly and securely mounted on the tool shank 12 , ready for operation.
- Removal of the cutting head 14 from the tool shank 12 due to, for example, wear, and the like, can be accomplished in the following manner.
- the actuation member 18 is rotated in a second direction (opposite to arrow 94 ) to move the cutting head 14 relative to the tool shank 12 to place the cutting tool 10 in a non-actuated position.
- the cutting head 14 is rotated counterclockwise using a wrench (not shown) that engages a pair of tool recesses or notches 98 on opposite sides of the cutting head 14 , as shown in FIGS. 1, 3, 4 and 5 .
- the cutting head 14 and coupling pin 16 together end up translating away from the tool shank 12 .
- each occurrence of rotating the cutting head 14 causes wear on the tool shank 12 .
- excessive torque may be required to rotate the cutting head 12 , which causes some difficulties to the operator.
- the V-shaped contact surfaces 54 , 56 , 76 , 78 also act as a ramp to increase the mechanical advantage and help to push the cutting head 14 during its removal out of the tool shank 12 with less rotation of the cutting head 14 , as compared to conventional cutting tools. For example, rotating the cutting head 14 only about 60 degrees may be necessary to remove the cutting head 14 from the tool shank 12 .
- the disclosure is not limited by the design of the coupling pin 16 and the actuation member 18 , and that the disclosure can be practiced with any design, so long as the coupling pin 16 cooperates with the actuation member 18 to effect the downward movement of the cutting head 14 relative to the tool shank 12 .
- an alternate embodiment of the cutting tool 10 of FIGS. 1-7 is shown in FIGS. 8-10 .
- a cutting tool 100 such as a modular drill, is shown according to a second embodiment of disclosure. Similar to the first embodiment, the second embodiment comprises four basic components:
- the second embodiment is substantially identical to the first embodiment, except the pin 116 and the actuation member 118 in the second embodiment are different than the pin 16 and the actuation member 18 in the first embodiment.
- the pin 116 has a threaded portion 124 at one end, a cylindrical portion 126 and a reduced diameter portion 128 .
- the notch portion 28 of the first embodiment has angled side walls 28 a , 28 b , which are absent in the second embodiment. Rather, the cylindrical portion 126 and the reduced diameter portion 128 of the pin 116 of the second embodiment are generally elongated in order to increase stiffness to support the clamping force.
- the reduced diameter portion 128 helps align the cutting head 14 and the tool shank 12 along the central, longitudinal axis, C L , of the cutting tool 100 .
- the cylindrical portion 126 of the pin 116 includes a notch 130 defined by a pair of side walls 130 a , 130 b and a bottom surface or base surface 130 c therebetween.
- the side walls 130 a , 130 b can be parallel or non-parallel to each other.
- the side walls 130 a , 130 b can be perpendicular or non-perpendicular to the bottom surface 130 c .
- the side walls 130 a , 130 b are non-parallel to each other, i.e., the side walls 130 a , 130 b form a non-zero angle with respect to each other.
- the side walls 130 a , 130 b are non-perpendicular to the bottom surface 130 c , i.e., the side walls 130 a , 130 b form an angle not equal to 90 degrees with respect to the bottom surface 130 c .
- each of the side walls 130 a , 130 b forms an angle of greater than 90 degrees with respect to the bottom surface 130 c .
- the side walls 130 a , 130 b diverge from one another in progressing away from the bottom surface 130 c.
- the actuation member 118 has a threaded portion 188 at one end. Unlike the actuation member 18 with the non-threaded portion 90 at the opposite end, the actuation member 118 has a bulbous front portion 190 defined by a pair of frustoconical surfaces 190 a , 190 b . Specifically, the frustoconical surfaces 190 a , 190 b are disposed adjacent to one another and, in an embodiment, separated (as shown) by a thin cylindrical strip with a diameter equivalent to a maximum diameter of each of the frustoconical surfaces 190 a , 190 b . It is noted that the frustoconical surface 190 b is disposed closer to the threaded portion 188 than the frustoconical surface 190 a.
- the threaded portion 124 of the coupling pin 116 is capable of being received in the threaded bore 82 of the cutting head 14 , as shown in FIGS. 8-10 .
- the cutting head 14 can be assembled to the tool shank 12 . Similar to the earlier embodiment, once the V-shaped contact surfaces 54 , 56 , 76 , 78 are aligned with each other, the operator threads the actuation member 18 into a threaded bore 92 in the tool shank 12 in the direction of the arrow 94 in FIG. 9 .
- Rotation of the actuation member 118 in a first direction causes the actuation member 118 to move relative to the tool shank 12 in the direction of the arrow 94 .
- the frustoconical front portion 190 of the actuation member 118 eventually engages one of the side walls 130 a , 130 b of the coupling pin 116 , which causes the cutting head 14 to move downwardly in the direction of the arrow 96 .
- the distance, d decreases between the bottom surface 70 of the cutting head 14 and the central floor portion 40 of the tool shank 12 .
- the angled surface 190 a of the frustoconical front portion 190 of the actuation member 118 engages the side wall 130 a of the coupling pin 116 .
- the actuation member 118 is threaded into the tool shank 12 until any or all of the bottom surface 70 and any or all of the central floor portion 40 abut each other, as shown in FIG. 10 .
- any or all of the V-shaped contact surfaces 54 , 56 , 76 , 78 abut each other.
- the cutting head 14 has been placed in an actuated position and thereby is securely mounted on the tool shank 12 , ready for operation.
- Removal of the cutting head 14 from the tool shank 12 due to, for example, wear, and the like, can be accomplished in the following manner.
- the actuation member 118 is rotated in a second direction opposite to the first direction, such as counterclockwise, such that the actuation member 118 moves in the direction of the arrow 194 in FIG. 10 .
- the frustoconical front portion 190 of the actuation member 118 engages the coupling pin 116 to cause the coupling pin 116 to move in an upward direction indicated by the arrow 196 .
- the angled surface 190 b of the frustoconical front portion 190 of the actuation member 118 engages the side wall 130 b of the notch 130 in the coupling pin 116 , thereby moving the cutting head 14 in the direction of the arrow 196 relative to the tool shank 12 .
- a wrench is not needed to rotate the cutting head 14 with respect to the tool shank 12 , unlike the earlier embodiment shown in FIGS. 1-7 .
- the V-shaped contact surfaces 54 , 56 , 76 , 78 also act as a guide to position the cutting head prior to final clamping. Unlike conventional modular cutting tools, rotation of the cutting head 14 is not necessary for clamping. In the embodiment shown in FIGS. 8-10 , no rotation of the cutting head 14 is needed to completely remove the cutting head 14 from the tool shank 12 .
- the cutting tool 10 , 100 of the disclosure has the following benefits and advantages:
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Abstract
Description
-
- 1) a
tool shank 12; - 2) a cutting
head 14; - 3) a
coupling pin 16; and - 4) an
actuation member 18.
- 1) a
-
- 1) a
tool shank 12; - 2) a cutting
head 14; - 3) a
coupling pin 116; and - 4) an
actuation member 118.
- 1) a
-
- 1) The V-shaped contact surfaces 54, 56, 76, 78 provide high stability against the cutting forces generated during machining operations.
- 2) The
cutting tool - 3) The V-shaped
contact surface head 14 to thetool shank 12. - 4) The interference fit between the cutting
head 14 and thetool shank 12 helps keep contact between them during machining operations when the tool shank may become deformed due to the cutting forces generated during machining operations. - 5) The torque generated during movement of the
actuation member - 6) No rotation of the cutting
head 14 is necessary for removal of the cuttinghead 14 due to damage. - 7) Finite Element Analysis (FEA) simulations demonstrate that the
tool shank 12 and the cuttinghead 14 exhibit lower stress during machining operations, as compared to conventional cutting tools, thereby extending tool life.
Claims (14)
Priority Applications (3)
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US16/824,537 US11471952B2 (en) | 2020-03-19 | 2020-03-19 | Cutting tool having replaceable cutting head and method of securing a replaceable cutting head |
DE102021106415.5A DE102021106415A1 (en) | 2020-03-19 | 2021-03-16 | CUTTING TOOL WITH INTERCHANGEABLE CUTTING HEAD AND PROCEDURE FOR SECURING AN INTERCHANGEABLE CUTTING HEAD |
CN202110284602.4A CN113492228A (en) | 2020-03-19 | 2021-03-17 | Cutting tool with replaceable cutting head and method of securing replaceable cutting head |
Applications Claiming Priority (1)
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US16/824,537 US11471952B2 (en) | 2020-03-19 | 2020-03-19 | Cutting tool having replaceable cutting head and method of securing a replaceable cutting head |
Publications (2)
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US20210291280A1 US20210291280A1 (en) | 2021-09-23 |
US11471952B2 true US11471952B2 (en) | 2022-10-18 |
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US16/824,537 Active 2040-11-07 US11471952B2 (en) | 2020-03-19 | 2020-03-19 | Cutting tool having replaceable cutting head and method of securing a replaceable cutting head |
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US (1) | US11471952B2 (en) |
CN (1) | CN113492228A (en) |
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